Abstract

Energy efficient and high performance interconnect is critical for multi-core architecture. Interconnect with power saving segmented buses satisfies the tight latency and high volumn data transfer needs of applications with large embeded pallelism. This paper analyzes the major energy consumption factors of interconnect with segmented buses from high level synthesis. It presents a computation and inter-core data transfer scheduling algorithm to minimize the interconnect energy consumption by addressing the analyzed factors while exploring an application's maximum parallelism. This paper jointly considers scheduling and interconnect design. It presents an application specific approach to determine the minimum number of segmented buses required and an optimal inter core data transfer schedule which can be used to configure the switches on the segmented buses to avoid bus contention and minimize interconnect energy consumption with a given application. Experimental results show that the proposed scheduling algorithm can reduce interconnect dynamic energy consumption about 71% and static energy consumption about 23% on average compared to the other communication cost conscious scheduling techniques for evaluated high parallelism DSP applications.

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